EP1526506A1 - Method for imitating background noise during a voice communication - Google Patents

Abstract

Process for simulating background noise during a speech connection from a first device to a second device comprises connecting the second device to an internet protocol network and transferring speech in data packets, and analyzing the background noise transferred during the speech connection at the second device. A speech pause is signaled by a silence insertion descriptor packet. During this speech pause, the previously analyzed background noise is blended into the speech connection until another data packet with speech is sent from the first device. Preferred Features: The second device contains a background analyzer (10).

Description

The present invention relates to a method for replication a background noise in a voice connection according to the preamble of claim 1.

To avoid ambiguity and in the sense of a concise Technical language is used in this document partially to the English-speaking Technical terms used. In order to explain the terms and acronyms used will refer to the Reference is made to the lists given in this document form an integral part of this document.

The "Internet telephony", i. Voice over IP (VoIP) begins to establish oneself. To save transmission capacity is done during pauses a transfer of a so-called SID packet. This special RTP packet is used during detection sent a speech break and contains a level and optionally a spectral distribution of a background noise. SID packages are specified in ITU-T G.711 App II [1]. Such a SID packet is used for a voice connection to that with a participant, during a speech break a background noise is present to avoid that a person might get the impression that the connection was canceled or canceled. Such a generated Noise is heard by the person as background noise is perceived in English jargon to the term "comfort noise" used.

Many available in the market VoIP phone devices in one SID packet only the level, but not the optional spectral Distribution according to ITU-T G.711 App II [1]. The spectral Distribution is often not transferred because their capture is relatively computationally intensive.

The transmitted levels are quite different and in particular their detection is in no way calibrated. Thereby arise with the receiving participant - that is one Telephone set - interoperability problems. Is serious it is falsely assumed that this Problems with the receiving telephone set lie, the source However, the problem lies with the A-subscriber.

So far - since only the level has been transmitted - the generation the background noise by fading in so-called solved white noise. This fade in one Standardized noise is perceived as unnatural and poses therefore no solution to the above-mentioned interoperability problem represents.

i) Aufzeichnung des tatsächlichen Hintergrundgeräusches während vorbestimmter Zeitabschnitte;

ii) Übertragung eines Teils der aufgezeichneten Hintergrundgeräusche.

In einer Weiterentwicklung dieses Verfahrens wird weisses Rauschen hinzugefügt. Dieses Verfahren ist für die Internet-Telefonie nur bedingt geeignet und wird von Personen immer noch als unnatürlich empfunden.US 2003/0093270 A1 [4] discloses a method for generating a background noise with the following method steps:

i) recording the actual background noise during predetermined periods of time;

ii) transmission of a portion of the recorded background noise.

In a further development of this method, white noise is added. This method is only partially suitable for Internet telephony and is still perceived by people as unnatural.

The present invention is therefore based on the object to specify a method for the service VoIP, which is a background noise replicates, which is independent of the acquisition level and spectrum during pauses in speech sending participant is and for the user anyway «Real» background noise generated during pauses.

This object is achieved by the in the claim 1 specified method solved.

A ein zweites Sprachendgerät an einem IP-Netzwerk angeschlossen ist und Sprache in Datenpaketen übertragen wird,

B das während der Sprachverbindung übertragene Hintergrundgeräusch beim zweiten Gerät analysiert wird,

C eine Sprechpause durch ein SID-Paket signalisiert wird,

D während einer durch ein SID-Paket signalisierten Sprechpause beim zweiten Gerät das zuvor analysierte Hintergrundgeräusch solange in die Sprachverbindung eingeblendet wird, bis vom ersten Gerät wieder ein Datenpaket mit Sprache gesendet wird;

werden für Sprachverbindungen mit dem Dienst VoIP Hintergrundgeräusche während Sprechpausen erzeugt, die einerseits unabhängig von einer solchen Erfassung durch den A-Teilnehmer sind und andererseits weitestgehend mit dem tatsächlichen Hintergrundgeräusch während einer Sprachverbindung kongruent sind. Erfindungsgemäss wird daher das Rauschen beim Empfänger nachgebildet im Gegensatz zum Stand der Technik, wo das Rauschen durch eine Übertragung von Rauschkoeffizienten vom Sender-Codec zum Empfänger-Codec realisiert wird. Durch die Auswertung der SID-Pakete ist dieses Verfahren voll kompatibel mit dem Standard ITU-T G.711 Appendix II [1] und somit auch für Sprachverbindungen geeignet, dessen A-Teilnehmer an einem POTS/ISDN-Netz angeschlossen ist.According to the inventive method, according to which

A a second voice terminal is connected to an IP network and voice is transmitted in data packets,

B is analyzed during the speech connection transmitted background noise at the second device,

C a speech break is signaled by a SID packet,

D during a speech pause signaled by a SID packet at the second device, the previously analyzed background noise as long as the voice connection is displayed until the first device is again sent a data packet with voice;

For voice connections with the VoIP service, background noises are generated during pauses in speech that are independent of such A-subscriber acquisition and, on the one hand, are largely congruent with the actual background noise during a voice call. According to the invention, therefore, the noise is reproduced at the receiver in contrast to the prior art, where the noise is realized by a transmission of noise coefficients from the transmitter codec to the receiver codec. By evaluating the SID packets this method is fully compatible with the standard ITU-T G.711 Appendix II [1] and thus also suitable for voice connections, the A-subscriber is connected to a POTS / ISDN network.

i) Sprachendgerät, Telefonapparat, Telefon, Teilnehmer und Subscriber bezeichnen die gleiche Einheit, die Begriffe sind jedoch auf den jeweiligen Kontext abgestimmt.

ii) A-Teilnehmer, B-Teilnehmer im Sinne des POTS/ISDN: rufender Teilnehmer, gerufener Teilnehmer.

For the purposes of this document and teaching according to the invention, the terms used are to be understood as follows and include the following characteristics:

i) Voice terminal, telephone, telephone, subscribers and subscribers denote the same unit, but the terms are tailored to the context.

ii) A-subscriber, B-subscriber in the sense of POTS / ISDN: calling subscriber, called subscriber.

Advantageous embodiments and implementations of the inventive Method are given in further claims.

Figur 1

Prinzipelle Darstellung einer Sprachverbindung über ein paketorientiertes Netz;

Figur 2

Darstellung der paketierten Sprachübermittlung mit einem eine Sprechpause repräsentierenden Paket;

Figur 3

Funktionale Komponenten eines Telefonapparates zur Durchführung des erfindungsgemässen Verfahrens.

Embodiments of the invention will be explained in more detail with reference to the drawing. Showing:

FIG. 1

Basic representation of a voice connection via a packet-oriented network;

FIG. 2

Depicting the packetized voice transmission with a packet representing a speech pause;

FIG. 3

Functional components of a telephone set for carrying out the method according to the invention.

• rufender Teilnehmer 1_A, über ein Router 2_A an ein paketorientiertes Netz 3 angeschlossen;
• gerufener Teilnehmer 1_B, über ein Router 2_B an ein paketorientiertes Netz angeschlossen 3.

Die Darstellung der Teilnehmer 1A bzw. 1B mit einem klassischen Telefonapparat ist in keiner Weise auf solche beschränkt, ein solcher Teilnehmer kann durchaus auch ein Personalcomputer mit einer Sprechgarnitur und einer zugehörigen Schnittstellenkarte sein.FIG. 1 shows a basic representation of a voice connection via a packet-oriented network with the following components:

• calling subscriber 1 _A , connected via a router 2 _A to a packet-oriented network 3;
• called subscriber 1 _B , connected via a router 2 _B to a packet-oriented network 3.

The presentation of the participants 1A and 1B with a classic telephone set is in no way limited to such, such a subscriber may quite well be a personal computer with a headset and an associated interface card.

The transmission of a conversation takes place in a packetized manner as shown in Figure 2. RTP packages VP included the language information, where the coding (to distinguish from the packaging) of the language preferably according to ITU-T G.711 [3] takes place. If a speech break is detected by the A-subscriber, becomes an SID packet from the A-subscriber to the B-subscriber sent. The illustrated time interval between a Package SID and a subsequent package VP is arbitrary. Not shown are other packets, the signaling information to the current call connection included.

The inventive method for generating a background noise is explained in the context of Figures 1 and 2 in more detail with reference to FIG. Shown is a device 1, exactly one B-subscriber 1 _B. The incoming voice packets VP on the one hand via a decoding circuit, not shown - usually called "decoder" - the speaker 32 is supplied. On the other hand, these packets are supplied to a background noise analyzer 10. In this unit 10, the level and the spectral distribution of the background noise are determined and stored, preferably according to a predetermined temporal raster. However, this grid does not need to be equidistant in time. Stored levels and spectral distribution are supplied as noise coefficients 13 to a background noise generator 11 which generates a background noise from the aforementioned noise coefficients (containing the two quantities of level and spectrum). The background noise generator 11 is connected to a change-over switch 12, to which the speech data, speech packets from the A-subscriber are fed on a further input. The switch 12 is controlled by the signaling 21, namely by an incoming SID packet signaling a speech pause. On the path 22 there is further provided an unillustrated voice activity detector unit which indexes the arrival of speech-containing packets VP and thus actuates the switch 12. In the voice terminal 1, a walking path 23 is further provided, which feeds the recorded speech from the microphone 33 in coded form the IP network.

The particular advantage of this solution becomes obvious from the above description of a voice terminal 1 operated according to the method according to the invention: The simulation of the background noise is completely independent of the device _1A and determinable by the actual background noise at the B-subscriber during a voice connection.

It is in this document of speech connection and of «spoken» Speech the speech. However, this is not limiting to understand, but also for other acoustic Transmissions applicable such as music or animal sounds.

The aforementioned embodiment relates to balanced participants 1 _A , 1 _B where these are both connected to a network based on the Internet Protocol 3. This is not necessary for the invention, it is also possible that only the B-subscriber 1 _{B is connected} to an IP network 3, while the A-subscriber 1 _{A is connected} to a circuit-switched POTS / ISDN network that in turn via a gateway is connected to the IP network 3.

List of reference numbers used

1, 1 _A , 1 _B

Voice terminal, telephone, on A- or B-side

2, 2A, 2B

Router, network access device, integrated network access device IAD,
on A- or B-side

3

Network, IP network

10

Background noise analyzer

11

Background noise generator

12

switch

13

transmitted noise coefficients, e.g. according to G.711 Appendix II

20

Voice data, voice packets, as RTP packets VP transmitted

21

Signaling, signaling data, as packets SID transmitted

22

Path, voice data, language packs; coming, downstream

23

Path, voice data, language packs; going, upstream

32

speaker

33

microphone

List of abbreviations used

IAD

Integrated Access Device

IP

Internet Protocol

ISDN

Integrated Service Digital Network

POTS

Plain Old Telephone Service

RTP

Real Time Protocol

SID

Silence insertion descriptor

VoIP

Voice over Internet Protocol

List of cited writings; Information on sites

[1]

ITU-T G.711 Appendix II (02/2000)
A comfort noise payload definition for ITU-T G.711 use in packet-based multimedia communication systems

[2]

CCITT G.726
ITU-T G.726
40, 32, 24, 16 kbps Adaptive differential pulse code modulation (ADPCM); 1990

[3]

ITU-T G. 711
Pulse code modulation (PCM); 1988, 1993

[4]

US 2003/0093270 A1;
May 15, 2003;
Comfort Noise including Recorded Noise Inventor: Steven M. Domer.

Claims (5)

Method for simulating a background noise in a voice connection from a first device ( _1A ) to a second device ( _1B ),
characterized in that A the second device (1 _A , 1 _B ) is connected to an IP network (3) and voice is transmitted in data packets (VP); B is analyzed during the speech connection transmitted background noise at the second device (1 _B ); C a speech pause is signaled by a SID packet; D during a speech pause signaled by a SID packet at the second device (1 _B ) the previously analyzed background noise as long as in the voice connection until the first device (1 _A ) again a data packet (VP) is sent with voice. Method according to claim 1,
characterized in that
in the second device, a background analyzer (10) is included, which simulates the background noise according to G.711 Appendix II as a noise coefficient (13). Method according to claim 2,
characterized in that
supplied by the background analyzer (10) the noise coefficients (13) to a background noise generator (12) to display a background noise during the pauses. Method according to one of claims 1 to 3,
characterized in that
the first device ( _1A ) is connected to the IP network (3). Method according to one of claims 1 to 4,
characterized in that
the first device (1 _A ) is connected to a circuit-switched POTS / ISDN network, which is connected via a gateway to the IP network (3).

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